对完整痘病毒转录组的动力学分析揭示了一类立即早期基因。

Kinetic analysis of a complete poxvirus transcriptome reveals an immediate-early class of genes.

作者信息

Assarsson Erika, Greenbaum Jason A, Sundström Magnus, Schaffer Lana, Hammond Jennifer A, Pasquetto Valerie, Oseroff Carla, Hendrickson R Curtis, Lefkowitz Elliot J, Tscharke David C, Sidney John, Grey Howard M, Head Steven R, Peters Bjoern, Sette Alessandro

机构信息

Division of Vaccine Discovery, La Jolla Institute for Allergy and Immunology, La Jolla, CA 92037, USA.

出版信息

Proc Natl Acad Sci U S A. 2008 Feb 12;105(6):2140-5. doi: 10.1073/pnas.0711573105. Epub 2008 Feb 1.

DOI:10.1073/pnas.0711573105

PMID:18245380

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2542872/

Abstract

Vaccinia virus is the prototypic orthopoxvirus and was the vaccine used to eradicate smallpox, yet the expression profiles of many of its genes remain unknown. Using a genome tiling array approach, we simultaneously measured the expression levels of all 223 annotated vaccinia virus genes during infection and determined their kinetics. For 95% of these genes, significant transcript levels were detected. Most remarkably, classification of the genes by their expression profiles revealed 35 genes exhibiting immediate-early expression. Although a similar kinetic class has been described for other virus families, to our knowledge, this is the first demonstration of its existence in orthopoxviruses. Despite expression levels higher than for genes in the other three kinetic classes, the functions of more than half of these remain unknown. Additionally, genes within each kinetic class were spatially grouped together in the genome. This genome-wide picture of transcription alters our understanding of how orthopoxviruses regulate gene expression.

摘要

痘苗病毒是正痘病毒的原型，曾是用于根除天花的疫苗，但其许多基因的表达谱仍不清楚。我们采用基因组平铺阵列方法，在感染过程中同时测量了所有223个已注释的痘苗病毒基因的表达水平，并确定了它们的动力学。对于其中95%的基因，检测到了显著的转录水平。最值得注意的是，根据基因的表达谱进行分类，发现有35个基因表现出立即早期表达。虽然其他病毒家族也描述过类似的动力学类别，但据我们所知，这是首次在正痘病毒中证明其存在。尽管这些基因的表达水平高于其他三个动力学类别的基因，但其中一半以上的功能仍不清楚。此外，每个动力学类别中的基因在基因组中在空间上聚集在一起。这种全基因组的转录图景改变了我们对正痘病毒如何调节基因表达的理解。

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